Add to ORKGEukaryotic transcriptional activators are minimally comprised of a DNA binding domain and a separable activation domain; most activator proteins also bear a dimerization module. We have replaced these protein modules with synthetic counterparts to create artificial transcription factors. One of these, at 4.2 kDa, mediates high levels of DNA site-specific transcriptional activation in vitro. This molecule contains a sequence-specific DNA binding polyamide in place of the typical DNA binding region and a nonprotein linker in place of the usual dimerization peptide. Thus our activating region, a designed peptide, functions outside of the archetypal protein context, as long as it is tethered to DNA. Because synthetic polyamides can, in principl...
The strict regulation of transcription is essential for the survival of an organism. Nearly every h...
Both genetic and biochemical data suggest that transcriptional activators with little sequence homol...
The strict regulation of transcription is essential for the survival of an organism. Nearly every h...
AbstractBackground: Most transcriptional activators minimally comprise two functional modules, one f...
Background: Most transcriptional activators minimally comprise two functional modules, one for DNA b...
Background: Most transcriptional activators minimally comprise two functional modules, one for DNA b...
SummaryMisregulated transcription is linked to many human diseases, and thus artificial transcriptio...
In this issue, Mapp and colleagues describe a significant advance in the design of artificial transc...
AbstractSynthetic activators that mimic the ability of native transcription factors to recruit the R...
SummaryMisregulated transcription is linked to many human diseases, and thus artificial transcriptio...
Typical eukaryotic transcriptional activators are composed of distinct functional domains, including...
Transcription is important for the determination of cellular phenotype through the regulation of gen...
Hairpin pyrrole-imidazole (Py-Im) polyamides are programmable oligomers that bind the DNA minor groo...
Hairpin pyrrole-imidazole (Py-Im) polyamides are programmable oligomers that bind the DNA minor groo...
Sequence-specific DNA-binding small molecules that can permeate human cells potentially could regula...
The strict regulation of transcription is essential for the survival of an organism. Nearly every h...
Both genetic and biochemical data suggest that transcriptional activators with little sequence homol...
The strict regulation of transcription is essential for the survival of an organism. Nearly every h...
AbstractBackground: Most transcriptional activators minimally comprise two functional modules, one f...
Background: Most transcriptional activators minimally comprise two functional modules, one for DNA b...
Background: Most transcriptional activators minimally comprise two functional modules, one for DNA b...
SummaryMisregulated transcription is linked to many human diseases, and thus artificial transcriptio...
In this issue, Mapp and colleagues describe a significant advance in the design of artificial transc...
AbstractSynthetic activators that mimic the ability of native transcription factors to recruit the R...
SummaryMisregulated transcription is linked to many human diseases, and thus artificial transcriptio...
Typical eukaryotic transcriptional activators are composed of distinct functional domains, including...
Transcription is important for the determination of cellular phenotype through the regulation of gen...
Hairpin pyrrole-imidazole (Py-Im) polyamides are programmable oligomers that bind the DNA minor groo...
Hairpin pyrrole-imidazole (Py-Im) polyamides are programmable oligomers that bind the DNA minor groo...
Sequence-specific DNA-binding small molecules that can permeate human cells potentially could regula...
The strict regulation of transcription is essential for the survival of an organism. Nearly every h...
Both genetic and biochemical data suggest that transcriptional activators with little sequence homol...
The strict regulation of transcription is essential for the survival of an organism. Nearly every h...